Title :
Induction motor speed sensor-less vector control with the mechanical simulator with disturbance torque compensation
Author :
Kobayashi, Nao ; Kondo, K. ; Yamazaki, Osamu
Author_Institution :
Dept. of Electr. & Electron. Eng., Chiba Univ., Chiba, Japan
Abstract :
The mechanical simulator method is proposed as a speed sensor-less vector control method in a ultra-low speed region. In this method, an error between the calculated rotor frequency and the actual rotor frequency occurs when the set value of disturbance torque is different from its actual value. The error of the calculated rotor frequency causes to increase the slip frequency, which reduces the rotor flux. This results in decreasing the motor torque. To cope with this problem, the torque current error is compensated by PI controller and its output compensates the disturbance torque in the mechanical simulator. The proposed method is verified by both numerical simulations and experimental tests with a scale-downed experimental system.
Keywords :
PI control; induction motors; machine vector control; rotors; sensorless machine control; torque; PI controller; actual rotor frequency; disturbance torque compensation; induction motor; mechanical simulator method; motor torque; rotor flux; scale-downed experimental system; slip frequency; speed sensor-less vector control method; torque current error; ultra-low speed region; Frequency estimation; Induction motors; Rail transportation; Rotors; Stators; Torque; Vehicles; Induction motors; speed sensor-less control; ultra-low speed region; vector control;
Conference_Titel :
Power Electronics, Electrical Drives, Automation and Motion (SPEEDAM), 2014 International Symposium on
Conference_Location :
Ischia
DOI :
10.1109/SPEEDAM.2014.6871948
